KR102205370B1 - Apparatus for preventing green algaes generation by - Google Patents

Abstract

The present invention relates to a water temperature dropping type green algae prevention device, and more particularly, to a water temperature dropping type green algae prevention device capable of preventing green algae by decreasing the water temperature during the power generation process at the same time as power generation by a hydrothermal power generation means using water temperature. .
The water temperature dropping type green algae prevention device according to the present invention is a hydrothermal power generation means installed on the float to generate electric power by using the water temperature of the floating body and the water sucked from the vicinity of the float and to discharge the cooled water to the vicinity of the float. It characterized in that it is provided.

Description

Water temperature drop type green algae prevention device {APPARATUS FOR PREVENTING GREEN ALGAES GENERATION BY}

The present invention relates to a water temperature dropping type green algae prevention device, and more particularly, to a water temperature dropping type green algae prevention device capable of preventing green algae by decreasing the water temperature during the power generation process at the same time as power generation by a hydrothermal power generation means using water temperature. .

When a large amount of domestic sewage and manure containing organic matter flows into rivers, lakes, rivers or seas, microorganisms decompose the organic matter excessively, so dirty water containing phosphorus (P) or nitrogen (N) can be found in lakes, rivers, and coastal areas. It flows into the water and uses it as a nutrient, causing the abnormal reproduction of plankton, resulting in eutrophication, which pollutes the water quality.

Such eutrophication causes abnormalities such as green algae, and when such abnormalities occur, there is a problem that fish die or are difficult to use as drinking water.

In addition, in the case of reservoirs or ponds where the flow rate is slow or water is stagnant, water is quickly contaminated because oxygen is not supplied to the bottom of the water at all.In particular, high insolation not only helps algae photosynthesis, but also helps the algae The green algae phenomenon intensifies by raising the water temperature suitable for growth.

Various methods have been attempted to prevent such algae, mainly Korean Patent Laid-Open No. 10-2016-0105576 (water circulation device for preventing green algae, 2016.09.07) or Korean Patent No. 10-1678460 (green algae using solar power). As in the occurrence prevention device, 2016.11.16), a method of increasing the amount of dissolved oxygen by circulating water between the deep and surface layers or by injecting air into the water is used.

The green algae phenomenon can be prevented when the water temperature is lowered to a temperature where it is difficult to generate green algae, and the conventional technology for preventing green algae is simply circulating water or injecting air, and lowering the water temperature of the water where green algae is generated. No method has been tried.

Republic of Korea Patent Publication No. 10-2016-0105576 (2016.09.07): Water circulation device for preventing green algae Republic of Korea Patent Registration No. 10-1678460 (2016.11.16): Green algae generation prevention device using sunlight

The present invention has been conceived by recognizing the above points, and an object of the present invention is to provide a water temperature drop-type green algae prevention device capable of preventing green algae by decreasing the water temperature during the power generation process at the same time as power generation as a hydrothermal power generation means using water temperature. It is to do.

In order to achieve the above object, the water temperature lowering type green algae prevention device according to the present invention generates electric power by using the floating body floating on the water surface and the water temperature of the water sucked from the vicinity of the floating body and discharging the cooled water to the vicinity of the floating body. It is characterized in that it is provided with a hydrothermal power generation means installed on the float.

In addition, the water temperature lowering type green algae prevention apparatus according to the present invention includes a water temperature sensing unit that senses a water temperature around or at a position where the floating body is floating, a propulsion unit for moving the floating body, and the water temperature sensing unit. It is characterized in that the control unit for controlling the operation of the thruster to determine the higher water temperature from the water temperature and to move the floating body to the higher water temperature.

In addition, the water temperature lowering type green algae prevention apparatus according to the present invention further includes an infrared image sensing unit configured to detect a water temperature by photographing infrared rays around a location where the floating body is floating, and the control unit includes a water temperature detected by the water temperature sensing unit and It is characterized in that, from the infrared image captured by the infrared image sensing unit, it is determined that the water temperature is higher, and the operation of the thruster is controlled to move the floating body to the higher water temperature.

In addition, the water temperature drop-type green algae prevention apparatus according to the present invention includes an image sensing unit for capturing an image around a position where the floating body is floating, a propulsion unit for moving the floating body, and an image captured by the image sensing unit. It is characterized in that the control unit for controlling the operation of the thruster to determine the location where the green algae has been generated and to move the floating body to the location where the green algae has been generated.

In addition, the water temperature drop-type green algae prevention apparatus according to the present invention is further provided with a solid-liquid separation means for separating and removing floating matters from water flowing into the hydrothermal power generation means or water discharged through the hydrothermal power generation means. .

With the configuration as described above, the water temperature reduction type green algae prevention device according to the present invention is a hydrothermal power generation means using water temperature and has the advantage of preventing green algae by decreasing the water temperature during the power generation process at the same time as power generation.

1 is a view conceptually showing the configuration of a water temperature drop-type green algae prevention device according to an embodiment of the present invention
2 is a block diagram conceptually showing an example of a hydrothermal power generation means of a water temperature drop-type green algae prevention device according to an embodiment of the present invention
3A and 3B are views conceptually showing an example of a solid-liquid separation means of a water temperature dropping green algae prevention apparatus according to an embodiment of the present invention

Hereinafter, a water temperature dropping type green algae prevention apparatus according to the present invention will be described in more detail with reference to the embodiments shown in the drawings.

1 is a view conceptually showing the configuration of a water temperature drop-type green algae prevention device according to an embodiment of the present invention, Figure 2 is an example of a hydrothermal power generation means of the water temperature drop-type green algae prevention device according to an embodiment of the present invention 3A and 3B are views conceptually showing an example of a solid-liquid separation means of the apparatus for preventing water temperature dropping according to an embodiment of the present invention.

The water temperature lowering type green algae prevention device 1 according to the present invention is a hydrothermal power generation means 20 that uses the water temperature while floating in water where green algae is generated, such as a reservoir or a lake, so that the water temperature decreases during the power generation process. It is characterized in that it can be prevented.

Referring to the drawings, the water temperature lowering type green algae prevention device 1 according to the present invention includes a floating body 10, a hydrothermal power generation means 20, a control unit 30, a solid-liquid separation means 40, a water temperature detection unit 51, An infrared image sensing unit 52, an image sensing unit 53, and a thruster 60 are provided and configured.

The floating body 10 is a configuration for forming buoyancy floating on the water, and may be variously configured by a method such as a ship, pants, and a floating body. FIG. 1 conceptually shows a state in which a quadrangular float 10 is floating on the water.

The hydrothermal power generation unit 20, the control unit 30, the solid-liquid separation unit 40, the water temperature sensing unit 51, the infrared image sensing unit 52 and the image sensing unit 53 are attached to the floating body 10, , The floating body 10 on which the above configuration is attached can be moved to a required position on the water surface by the thruster 60 located below the water surface.

The hydrothermal power generation means 20 is installed on the floating body 10 in a configuration for generating electric power using the water temperature of water sucked from the surroundings of the floating body 10. Since the hydrothermal power generation means 20 absorbs the heat energy of water in the process of converting the heat energy possessed by the water temperature into electric energy, the temperature of the water of the discharged water (Wo) is lower than the temperature of the absorbed water (Wi). Accordingly, the present invention can prevent the occurrence of green algae by lowering the water temperature while generating power required for the operation of the device by the operation of the hydrothermal power generation means 20.

The hydrothermal power generation means 20 for generating power by absorbing hydrothermal heat may be configured in various ways, but FIG. 2 shows an embodiment in which the power generation method using an organic rankine cycle is used as the hydrothermal power generation means 20 . The organic Rankine cycle, which is the hydrothermal power generation means 20 shown in FIG. 2, forms a cycle in which the working fluid is circulated in the order of a preheater, an evaporator, a superheater, a turbine, a condenser, a tank, and a pump, and the generator is operated by rotation of the turbine. This is the way progress is made.

The preheater constituting the organic Rankine cycle, which is the hydrothermal power generation means 20, absorbs the heat of water (Wi) sucked through the suction pipe 11a to preheat the working fluid in a liquid state, and the evaporator absorbs the water heat It is a configuration for generating a liquid working fluid passed through the preheater in a gaseous state. The superheater constituting the organic Rankine cycle, which is the hydrothermal power generation unit 20, absorbs water heat and superheats the gaseous working fluid supplied through the evaporator to the superheated gaseous state. The turbine is a configuration in which the overheated gaseous working fluid supplied through the superheater is circulated again in the direction of the preheater, and the overheated gaseous working fluid is supplied and converted into mechanical energy to be driven, and the generator is the turbine It is a configuration that generates power by driving The power generated by the generator is stored in a rechargeable battery. The condenser is configured to condense the gaseous working fluid passed through the turbine into a liquid state, and the cooling liquid condensed through the condenser is stored in a tank. In the organic Rankine cycle, the cooling liquid stored in the tank is pumped by a pump and supplied to the preheater to perform circulation.

The preheater, evaporator, and superheater constituting the organic Rankine cycle of the hydrothermal power generation means 20 are configured to absorb water heat, and these configurations may be configured to receive water separately and absorb the water heat, but the drawings An embodiment in which the water (Wi) sucked through the suction pipe 11a is sequentially passed through a superheater, an evaporator, and a preheater in this order, so that the water heat is absorbed and discharged to the connection pipe 11b is shown.

The control unit 30 comprises a hydrothermal power generation unit 20, a solid-liquid separation unit 40, a water temperature sensing unit 51, an infrared image sensing unit 52, an image sensing unit 53, and a thruster constituting the present invention. This is a configuration to control the operation of ).

That is, the control unit 30 controls the operation of the suction pump 12 for sucking water supplied to the hydrothermal power generation means 20. In addition, the operation of the pump is controlled so that the cycle cycle of the hydrothermal power generation means 20 is performed, and the generated power is charged to a rechargeable battery, and the charged power is discharged and supplied to a different configuration. The controller 30 controls whether or not the solid-liquid separation means 40 for separating suspended matters such as green algae microorganisms from the water discharged through the hydrothermal power generation means 20 is operated.

In particular, the present invention detects the location of the high water temperature so that the water temperature in which the green algae are likely to occur can be moved to a high location to absorb the high temperature hydrothermal energy as well as intensively lower the water temperature in the location where the water temperature is high. And the control operation of the control unit 30 is made so that the movement to the position is possible. To this end, the control unit 30 determines the higher water temperature from the water temperature sensed by the water temperature sensing unit 51 and controls the operation of the thruster 60 to move the floating body 10 toward the higher water temperature. Is done. In addition, the control unit 30 determines the higher water temperature from the water temperature sensed by the water temperature sensing unit 51 and the infrared image captured by the infrared image sensing unit 52, and The operation of the thruster 60 is controlled to move the water temperature to a higher level.

On the other hand, the location where the algae occurred and the location where the algae did not occur are identified with the naked eye because of different contrast or color, which can be determined by photographing an image. In the present invention, the controller 30 determines the location of the green algae from the image captured by the image detection unit 53, and moves the floating body 10 to the location where the green algae is generated. ) Is configured to control the operation.

The solid-liquid separation means 40 is configured to separate and discharge floating matters such as green algae microorganisms from water sucked through the suction pipe 11a or water discharged through the hydrothermal power generation means 20. The water discharged from the water temperature dropping through the hydrothermal power generation means 20 may be immediately discharged to the outside, but the present invention may be configured to actively remove green algae by separating floating matters such as green algae substances contained in the water. . In the drawing, the solid-liquid separation means 40 is connected between the hydrothermal power generation means 20 and the discharge pipe 11c to separate and remove the floating matter from the water discharged through the connection pipe 11b through the hydrothermal power generation means 20. Although an embodiment is shown, the solid-liquid separation means 40 may be configured to separate the floating matter from the water Wi that is connected before the hydrothermal power generation means 20 and sucked into the suction pipe 11a.

The solid-liquid separation means 40 may be configured in various ways such as a manure method, a centrifugal separation method, a cyclone method, and the like, and FIGS. 3A and 3B show the solid-liquid separation means 40 of a method in which a centrifugal force and a cyclone method are mixed. An example is shown. Referring to the drawings, a connection pipe 11b is connected to an eccentric position of the cylindrical rotating drum 41 and flows into the rotary drum 41 through the connection pipe 11b through the hydrothermal power generation means 20. The resulting water forms a helical rotational flow (t1) inside the drum. A separation drum 42 having a diameter larger than that of the rotating drum is connected to one side of the rotating drum 41, and water flowing while forming a helical rotational flow t1 in the rotating drum 41 is transferred to the separation drum 42 ) To form a rotational flow (t2) where the flow rate rapidly drops. Accordingly, in the separating drum 42, the suspended solid is moved to the outside by the centrifugal force of the slow flow rate and the rotational flow t2, and water is filled in the center. The floating material moved to the outside of the separation drum 42 is discharged as a solid material S through a solid material discharge pipe 43 eccentrically connected to the outside of the separation drum 42, and the water from which the floating material is separated is discharged to the separation drum ( 42) flows into the discharge pipe (11c) where the inlet is located and is discharged to the outside.

Water (Wo) discharged to the outside through the discharge pipe (11c) is absorbed in the process of passing through the hydrothermal power generation means (20) and the temperature is reduced.

The water temperature sensing unit 51 is configured to detect a position where the floating body 10 is floating or a water temperature around it. As described above, the control unit 30 determines the higher water temperature from the water temperature sensed by the water temperature sensing unit, and controls the operation of the thruster 60 to move the floating body 10 toward the higher water temperature. Is done.

The infrared image sensing unit 52 is a component that detects water temperature by photographing infrared rays around a location where the floating body 10 is floating. As described above, the control unit 30 determines the higher water temperature from the infrared image captured by the infrared image sensing unit 52, and moves the floating body 10 toward the higher water temperature. ) To control the operation.

Meanwhile, in order to effectively determine the location of the high water temperature, the present invention is preferably configured to simultaneously consider the data acquired from the water temperature sensing unit 51 and the infrared image sensing unit 52.

The image sensing unit 53 is a component that photographs an image around a position where the floating body 10 is floating. The control unit 30 determines the location of the green algae from the image captured by the image sensing unit 53, and operates the propulsion unit 60 to move the floating body 10 to the location where the green algae are generated. Control.

The thruster 60 is a configuration for moving the floating body 10 to a desired position under the control of the controller 30. In the drawing, an embodiment in which the thruster 60 is provided as a screw on the bottom of the float 10 is shown, but this may be configured in a jet method for spraying water. In addition, the thruster may be configured to be made by using the spraying force of water sucked for hydrothermal power generation and discharged through the discharge pipe 11c.

The drawings and the above-described water temperature dropping algae prevention apparatus are only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is determined only by the matters described in the following claims, and the improved and modified embodiments without departing from the gist of the present invention will be apparent to those of ordinary skill in the technical field to which the present invention belongs. As long as it will be said to belong to the protection scope of the present invention.

1 Green algae prevention device
10 floats
20 Hydrothermal power generation means
30 control unit
40 solid-liquid separation means
51 Water temperature detector
52 Infrared image detector
53 Image detection unit
60 thruster

Claims (5)

delete Floating on the water,
Hydrothermal power generation means installed on the floating body to generate electric power using the water temperature of the water sucked from the floating body and discharging the cooled water to the floating body;
A water temperature sensing unit that senses a water temperature in or around the floating body,
A thruster for moving the floating body,
A water temperature dropping type green algae prevention device comprising a control unit configured to determine a higher water temperature from the water temperature sensed by the water temperature sensing unit and control the operation of the thruster to move the floating body toward the higher water temperature. The method of claim 2,
An infrared image sensing unit for sensing water temperature by photographing infrared rays around the floating position of the floating body is further provided,
The control unit determines the higher water temperature from the water temperature sensed by the water temperature sensing unit and the infrared image captured by the infrared image sensing unit, and controls the operation of the thruster to move the floating body toward the higher water temperature. Water temperature drop type green algae prevention device, characterized in that. delete The method according to claim 2 or 3,
Water temperature drop-type green algae prevention device, characterized in that further provided with a solid-liquid separating means for separating and removing the floating matter from water flowing into the hydrothermal power generation means or water discharged through the hydrothermal power generation means.

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